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Kriging to Kolmogorov-Arnold Network model accelerated discovery of oxygen control strategy in lead-based fast reactors

Shiwei Wang, Jiajie Chen, Xiaojing Liu, Tengfei Zhang, Xiang Chai, Qi Lu, Danhong Shen, Hui He

2025Nature Communications6 citationsDOIOpen Access PDF

Abstract

As a cornerstone of net-zero emission strategies and Gen-IV nuclear technologies, the commercialization of Lead-based Fast Reactor (LFR) is impeded by lead-bismuth eutectic (LBE)-induced cladding corrosion. Although active oxygen control demonstrates promise under laboratory conditions, its long-term effectiveness under realistic conditions remains uncertain due to multiphysics interactions and prohibitive computational costs. To address this challenge, we introduce a high-fidelity and high-accuracy surrogate model, K2K (Kriging to Kolmogorov-Arnold Networks) with a predictor-corrector structure combined with a gradient penalty operator, thereby effectively enhancing model accuracy while mitigating non-physical extrapolations. The application of K2K enables the identification and localization of cladding failure mechanisms. Leveraging these insights, we develop a robust and comprehensive oxygen concentration control strategy, encompassing feasible concentration ranges and optimal values to support the safe, reliable, and long-term operation of LFR. Finally, we explore the potential of K2K model for analyzing multiphysics behaviors in energy systems. This manuscript provides a robust and comprehensive oxygen concentration control strategy using Kriging to Kolmogorov-Arnold Networks, determining feasible concentration ranges and optimal values to support the safe operation of Lead-based Fast Reactors (LFR).

Topics & Concepts

MultiphysicsComputer scienceProcess engineeringNetwork modelBiochemical engineeringEutectic systemDiscretizationCommercializationCladding (metalworking)Control (management)MotherboardIdentification (biology)Surrogate modelEfficient energy useKrigingEnergy (signal processing)Reliability (semiconductor)Control systemToxicodynamicsBiological systemOxygenControl engineeringMaterials scienceBottleneckNuclear engineeringNuclear reactor physics and engineeringNuclear Engineering Thermal-HydraulicsNuclear Materials and Properties
Kriging to Kolmogorov-Arnold Network model accelerated discovery of oxygen control strategy in lead-based fast reactors | Litcius